A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS

The use of biomass gasification for conversion of hydrocarbons to permanent fuel gas mainly composed of carbon monoxide and hydrogen, dates back to late 1700. However, the successful design and operation of gasifiers is not an easy task. No clear cut methods of performance prediction of gasifiers...

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Main Authors: Atnaw, Samson Mekbib, Sulaiman, S. A., Yusup, Suzana
Format: Citation Index Journal
Published: 2011
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Online Access:http://eprints.utp.edu.my/5477/1/Samson_1913-1920.pdf
http://eprints.utp.edu.my/5477/
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spelling my.utp.eprints.54772017-01-19T08:23:07Z A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS Atnaw, Samson Mekbib Sulaiman, S. A. Yusup, Suzana TJ Mechanical engineering and machinery The use of biomass gasification for conversion of hydrocarbons to permanent fuel gas mainly composed of carbon monoxide and hydrogen, dates back to late 1700. However, the successful design and operation of gasifiers is not an easy task. No clear cut methods of performance prediction of gasifiers is yet available as the thermodynamics of gasifier operation is less understood and highly dependent on the specific biomass feedstock used. In this paper the performance study of downdraft gasification of oil-palm fronds, is carried out making use of ASPEN PLUS process simulator software, to study the effect of operating conditions (zone temperature, operating pressure, air fuel ratio and moisture content) on syngas composition. In the current paper the pyrolysis yield is calculated from the ultimate analysis (CHNS test) values of the oil-palm fronds, rather than approximating typical yield distribution for pyrolysis products. The results of the simulation showed better agreement with the syngas composition results of other authors. From the simulation study it is shown that higher mass fraction of carbon monoxide and methane can be obtained at lower Air-Fuel ratio, and lower pressure (below 5 bars). The mass fraction of CO increases sharply with increase in the oxidation zone temperature, for the temperature range of 500-700°C. 2011 Citation Index Journal PeerReviewed application/pdf http://eprints.utp.edu.my/5477/1/Samson_1913-1920.pdf Atnaw, Samson Mekbib and Sulaiman, S. A. and Yusup, Suzana (2011) A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS. [Citation Index Journal] http://eprints.utp.edu.my/5477/
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
topic TJ Mechanical engineering and machinery
spellingShingle TJ Mechanical engineering and machinery
Atnaw, Samson Mekbib
Sulaiman, S. A.
Yusup, Suzana
A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS
description The use of biomass gasification for conversion of hydrocarbons to permanent fuel gas mainly composed of carbon monoxide and hydrogen, dates back to late 1700. However, the successful design and operation of gasifiers is not an easy task. No clear cut methods of performance prediction of gasifiers is yet available as the thermodynamics of gasifier operation is less understood and highly dependent on the specific biomass feedstock used. In this paper the performance study of downdraft gasification of oil-palm fronds, is carried out making use of ASPEN PLUS process simulator software, to study the effect of operating conditions (zone temperature, operating pressure, air fuel ratio and moisture content) on syngas composition. In the current paper the pyrolysis yield is calculated from the ultimate analysis (CHNS test) values of the oil-palm fronds, rather than approximating typical yield distribution for pyrolysis products. The results of the simulation showed better agreement with the syngas composition results of other authors. From the simulation study it is shown that higher mass fraction of carbon monoxide and methane can be obtained at lower Air-Fuel ratio, and lower pressure (below 5 bars). The mass fraction of CO increases sharply with increase in the oxidation zone temperature, for the temperature range of 500-700°C.
format Citation Index Journal
author Atnaw, Samson Mekbib
Sulaiman, S. A.
Yusup, Suzana
author_facet Atnaw, Samson Mekbib
Sulaiman, S. A.
Yusup, Suzana
author_sort Atnaw, Samson Mekbib
title A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS
title_short A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS
title_full A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS
title_fullStr A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS
title_full_unstemmed A Simulation Study of Downdraft Gasification of Oil-Palm Fronds using ASPEN PLUS
title_sort simulation study of downdraft gasification of oil-palm fronds using aspen plus
publishDate 2011
url http://eprints.utp.edu.my/5477/1/Samson_1913-1920.pdf
http://eprints.utp.edu.my/5477/
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